|Publication number||US6956662 B1|
|Application number||US 09/244,419|
|Publication date||Oct 18, 2005|
|Filing date||Feb 4, 1999|
|Priority date||Feb 5, 1998|
|Publication number||09244419, 244419, US 6956662 B1, US 6956662B1, US-B1-6956662, US6956662 B1, US6956662B1|
|Original Assignee||Nec Corporation|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (29), Referenced by (17), Classifications (16), Legal Events (3)|
|External Links: USPTO, USPTO Assignment, Espacenet|
1. Field of the Invention
This invention relates to a network system which transmits an operation document image from one terminal to another terminal and, in particular, to an image workflow system which allows an operator of each terminal to do operations to be handled to the operation document image.
2. Description of the Related Art
Heretofore, an image workflow system has been used to successively transfer a document in the form of a document image from one terminal to another terminal through a network. In this connection, the document may be called an operation document while the document image, an operation document image.
For example, the operation document may be a deposit function sheet used in a financial institution, such as a bank. In the financial institution, the operation document image is transferred from one section to another section in the bank and is subjected at each section to manual processing. The processed operation document image is further transferred to another section associated with this document. Finally, the processed operation document image is preserved as an evidence of a conclusion.
Herein, a wide variety of operation documents have been transferred or circulated through the workflow system in the financial institution. In this event, each operator in the sections must judge a species of the documents to execute processing necessary to the document judged and to transfer the processed document to associated sections.
Under the circumstances, a heavy load is imposed on each operator in the conventional workflow system and becomes serious with an increase of the species of the operation document.
Alternatively, an image workflow system for reduction of the operator's load is exemplified in Japanese Laid-Open Patent Publication H 9-81488 (namely, 81488/1997). In this image workflow system, a circulation route formed through a plurality of sections or terminals is at first attached to a document as a route identifier and is scanned by an image scanner or a facsimile into an operation document image. Each terminal extracts the identifier from the operation document image to recognize the circulation route. With this system, the operation document image can automatically be circulated or transferred from one terminal to another through the circulation route.
Thus, the conventional image workflow system may circulate the operation document image. However, the operation document image can never be edited by an operator so as to add a value, a sign to the operation document image.
Also, the conventional system may not handle a document which is used in a financial institution because such a document may not always include a circulation route.
Therefore, it is an object of the invention to provide an image workflow system in which each terminal may edit an operation document image transmitted from another terminal.
It is another object of the invention to provide an image workflow system of the type described which may easily transmit an operation document image in which a circulation route is not always included.
It is still another object of the invention to provide an image workflow system which may observe availability of each of terminals and select one of the terminals as a destination of an operation document image based on the observation result, and which thereby an increase an efficiency of an operation associated with the selected terminal.
According to an embodiment of the invention, an image workflow system for use in transferring, through a network, an operation document image extracted from an operation document which is featured by a species, a destination, and operation to be handled to the operation document, comprises a workflow control table which stores the species, the destination, and the operation assigned to each operation document, and an image identifying server for identifying the species of the operation document from the operation document image to retrieve the species stored in the workflow control table in response to the identified species, to automatically recognize the corresponding destination and operation, and to transmit a recognized result to the network.
The image input device 11 may be, for example, an image pickup device, such as an image scanner, a digital camera, and scans an operation document into an operation document image.
The identification table 13 stores in advance, information (will become clear later) required for image identification. The workflow control table 14 stores destinations and identifiers of operations (for example, operation codes) each of which corresponds to an identification code representing a species of each operation document image. The image identifying server 12 identifies the species of each operation document image extracted by the image input device 11 and obtains an identification code. The workflow control table 14 is retrieved by the use of the identification code as a key under control of the image identifying server 12. The image identifying server 12 generates a packet which includes the operation document image as a data part and information, such as a destination and operation code, obtained by the retrieval of the workflow control 14 as a header part, and transmits the packet to a terminal of the destination.
Here, description is made about an example of a document used in a financial institution.
The operation document image obtained by the image input device 11 may be any of a binary image (white and black), a multi-valued image (gray scale), and a color image etc.
The image workflow system of the invention may identify the number by OCR (optical character reader). That is, the system optically reads the document by the image input device 11 and recognizes the operation document image supplied by the image input device 11 using character recognition technique.
The identification table 13 stores identification codes each of which corresponds to the species of each operation document.
The character recognition is performed at the image identifying server 12 by using a standardized character pattern (recognition dictionary) and a character code representing an identification code in the identification table 13. Such the method is disclosed in Japanese Laid-Open Patent Publication H 5-128295 (namely, 128295/1993).
The image identifying server 12 judges whether the operation document image obtained by the image input device 11 is matched with information which has been stored in the identification table 13 and produces an identification code on detecting the matching. Also, since the server 12 is provided with a monitor for displaying the operation document image obtained by the image input device 11 and the resultant identification code, an operator of the system can easily confirm the resultant identification code. If the resultant identification code is obtained incorrectly or is not obtained, the operator may input the correct identification code to the system.
Next, the image identifying server 12 retrieves the workflow control table 14 a using the identification code as a key and obtains the destination terminal number and the operation code which correspond to the identification code. Then, the server 12 generates a packet which includes the operation document image of the document obtained by the image input device 11 as a data part. Also, the destination terminal number and the operation code obtained from the workflow control table 14 a as a header part. Finally, the server 12 transmits the packet to the destination via the network 10.
The operation terminal 15 destined by the packet extracts the operation code from the header part in the packet, when the terminal receives the packet. Next, the terminal 15 activates a function program on the basis of the operation code, and processes the operation document image in accordance with the function program. The process is, for example, to enter a value, sign, or edit on the operation document image.
Hereinafter, operations of the embodiment of the invention will be described in more detail into the system.
Here, it is assumed that a document shown in
The image identifying server 12 reads an identification number in upper right in the document shown in
The destination terminal number may be a network address such as an IP (Internet Protocol)-address.
The operation terminal 15 which corresponds to the destination terminal number 8 obtains the operation code from the header part in the packet, when the terminal receives the packet. Next, the terminal 15 activates a function program which corresponds to the operation code P, and processes on the operation document image of the data part in the packet according to instructions of an operator of the terminal 15.
When operation codes are different for each kind of document, in a conventional system, its operator has to determine a kind of document and transmit the operation document image of the document to a section which is responsible for the document. However, according to the invention, since the image identifying server 12 may identify a kind of document, its operator only confirm the result of the identification, and consequently, efficiency of an operation is improved.
The packet transmitted between the image identifying server 12 and the operation terminal 15 is composed of a data part (the operation document image) and a header part. However, the header and a compressed operation document image may be carried by the packet and the compressed operation document image may be decompressed by a receiving terminal. Thereby, a reduction of data amount in the packet and fast transmission of an operation document image are achieved. Further, when the compressed image is temporarily stored in a system memory, it is possible to reduce a memory area of the system memory occupied by the compressed image included in the packet.
Hereinafter, operations of the invention may be carried out by the use of arrangement different from the workflow control 14 a, as will mentioned below.
As shown in the workflow control table 14 a of
As shown in
According to the above first definitions, an operation document image having an identification code 1 are transmitted to terminals of destination terminal number 1 and 2 as a packet with a header part, and different operations A and B are performed on the operation document image at terminals of destination terminal number 1 and 2, respectively.
Also, as shown in
According to the above second definitions, an operation document image having an identification code 25 are firstly transmitted to terminal of the destination terminal number 8 as a packet with a header part, and operation P is performed on the operation document image at the terminal. Next, the destination terminal number and the operation code in the header part in the packet are replaced with a next destination terminal number 1 (the second destination terminal number) and a next operation code A (the second operation code) obtained from the header part in the packet received at the terminal of destination terminal number 8. Then, an operation document image processed by the operation P and/or compressed are generated as a data part, and the data part and the header part are combined to produce a new packet. Finally, the new packet is transmitted to the terminal of the destination terminal number 1 and an operation document image of the data part in the packet are performed by the operation A. Using such a definition, operations may be performed sequentially across the terminals.
Also, as shown in
According to the third definition, an operation document image having an identification code 30 may be transmitted to the terminal of the destination terminal number 3 or 4 as a packet with a header part, and the operation Q is performed at the terminal of the destination terminal number 3 or 4. This means that the packet may be transmitted to either of the terminal of the destination terminal number 3 or 4, because both terminals may perform the operation Q. In this case, the image identifying server 12 may observe the availability of both terminals (terminal numbers 3 and 4) via the network 10 prior to transmitting the packet, and may also select one of the terminals which has lowest availability as a destination. This is because such a selected terminal may be probably put into an unused state, in other words, a processing time of the operation at the selected lowest terminal is expected to be smaller than the processing time at the other terminal. Therefore, the server 12 is operable at a high efficiency.
As described above, according to the invention, the image workflow system allows each terminal to automatically execute processing necessary the operation document image transmitted from another terminal.
Also, according to the invention, the image workflow system may easily transmit an operation document image in which a circulation route is not always included.
Furthermore, according to the invention, the image workflow system may observe efficiency of each terminal and may also select one of the terminals as a destination of a packet based on the observation result, to increase an efficiency of an operation.
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|U.S. Classification||358/1.15, 715/227, 358/444, 715/222|
|International Classification||G06Q10/10, G06F19/00, H04N1/32, G06F17/00, H04N1/00|
|Cooperative Classification||H04N2201/0039, H04N1/32122, H04N2201/3226, H04N2201/3274, H04N2201/3242, H04N1/00209|
|Mar 12, 1999||AS||Assignment|
Owner name: NEC CORPORATION, JAPAN
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:KAMIMURA, TAKESHI;REEL/FRAME:009810/0548
Effective date: 19990203
|Mar 18, 2009||FPAY||Fee payment|
Year of fee payment: 4
|Mar 6, 2013||FPAY||Fee payment|
Year of fee payment: 8